Support element for circumcision and system comprising the same

ABSTRACT

The present disclosure provides a support element ( 10,110 ) for use in effecting ischemic necrosis in a foreskin ( 186 ) of a penis, being a closed-loop member defining an opening ( 12 ) dimensioned to permit a penis glans to pass therethrough and having an inner surface ( 14 ) and an outer surface ( 16 ); the outer surface comprising a circumferential support ( 18, 118 ) for an elastic ring ( 150 ) to be mounted thereon, said circumferential support being formed within a groove ( 20,120 ) in at least part of the outer surface; at least one first segment ( 26, 28 ) of the outer surface having an outer curvature of a radius larger than that of its flanking second segments ( 30, 32 ). Also provided herein is a system ( 100 ) for effecting ischemic necrosis in a foreskin ( 186 ) of a penis, comprising the support element ( 110 ) and elastic ring ( 150 ), and optionally a deployment element ( 160 ) for mounting the elastic ring over the foreskin and support element.

FIELD OF THE INVENTION

This invention relates to non-surgical circumcision and to elements andsystem used for performing the same.

BACKGROUND OF THE INVENTION

Male circumcision is one of the most common surgical procedures in theworld and is performed for ritualistic as well as hygienic and diseaseprevention reasons. Approximately a third of human males worldwidereceive a circumcision at some point in their lives. Circumcision hastraditionally been performed either immediately after birth, duringchildhood, during adolescence or occasionally on young adults (i.e.,after the teenage years).

One conventional method for performing circumcision is by surgicallyremoving the foreskin after physically pulling the foreskin over theglans. In such methods, the foreskin is removed while it is still a livetissue, usually causing bleeding. Such methods may involve hemorrhagingand a relatively long period of healing of the incision (e.g., up to afew weeks), while inducing pain in an individual. When such a procedureis performed on adult males, suturing is required. In general, suchmethods are recognized as not being scalable for mass circumcisioncampaigns, in particular in areas where medical facilities may be sparseor not available and where skilled personnel is scarce. It is thereforedesirable to have a circumcision device that is scalable for masscircumcision in that it is a fast procedure, requires no sterilesettings, and can easily be administered by low cadre professionals suchas nurses, and is also associated with as little pain as possible toincrease acceptability and satisfaction of the procedure, leading tomore men agreeing to undergo the procedure.

Other methods and devices for performing circumcision are known in theart, some use a device in the form of a ring enclosing onto theforeskin. One such device is shown on the websitehttp://www.circ-ring.de/us/circ ring english.html (owned by the companyCirc-Ring International and known commercially as the Zhenxi Ring). Theuse of this device requires anesthesia.

U.S. Pat. No. 5,269,788 issued to Nelson, III, and entitled “AdjustableHemostatic Circumcision Dressing and Method of its Use,” is directed toa device for performing circumcision and describes a circumcisiondressing, which comprises an inner ring that is discontinuous and ispositioned between the prepuce and shaft of the penis and an outer ring.

U.S. Pat. No. 2,561,176 issued to Buckingham Charles T describes a onepiece compression clamp that is left on the prepuce for a few days afterthe circumcision.

U.S. Pat. No. 2,544,037 issued To Moseley Mortimer H describes asurgical instrument comprising a guard positioned between the prepuceand the shaft and a clamp positioned in encompassing position about theprepuce crushing the prepuce against the guard to cause hemostasis.

International patent application publication No. WO2005/039424 describesa circumcision apparatus composed of three components, glans loop, arubber ring and a clamping mechanism, the rubber ring being placedbetween the glans loop and the clamping mechanism.

Chinese publication CN2256299 describes it its abstract a ring cuttercomprising a ring loop, having a ring groove present on the outer circleof this ring loop, and a flexible loop which is stretched onto the ringgroove of the ring loop. The ring loop and the flexible rubber loop forma ring bracket, which is inserted and supported in the prepuce, therebyblocking the blood circulation of the front part of the prepuce so thatthe prepuce falls off.

Chinese publication CN2403373 describes in its abstract a circumcisionapparatus used for prepuce excision comprises a ring support arranged onthe inner side of prepuce and an elastic excision ring arranged on theoutside of the prepuce, with both being mutually acted, allowing theblood transmission of the prepuce to be cut off, and prepuce tissues arenecrotized to fall off.

Chinese publication CN2031271 describes a circumcision apparatuscomposed of an inner ring and an outer elastic ring.

SUMMARY OF THE INVENTION

The present disclosure provides, in accordance with a first of itsaspects, a support element for use in effecting ischemic necrosis in aforeskin of a penis, being a closed-loop member defining an openingdimensioned to permit a penis glans to pass therethrough and having aninner surface and an outer surface; the outer surface comprising acircumferential support for an elastic ring to be mounted thereon, saidcircumferential support being formed within a groove in at least part ofthe outer surface; at least one first segment of the outer surfacehaving an outer curvature of a radius larger than that of its flankingsecond segments.

In accordance with a second aspect, the present disclosure provides asystem for effecting ischemic necrosis in a foreskin of a penis,comprising: an elastic ring; and a support element defining a closedloop defining an opening dimensioned to permit a penis to passtherethrough and having an inner surface and an outer surface; the outersurface comprising a circumferential support for the elastic ring to bemounted thereon, said support being formed within a groove in at leastpart of the outer surface; at least one segment of the outer surfacehaving a curvature of a radius larger than that of its flankingsegments.

In one embodiment, the system of the invention comprises a deploymentelement having an arrangement of holders for holding the elastic ring ina stretched state thereof and for mounting the elastic ring within thecircumferential support of said support element.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to understand the invention and to see how it may be carriedout in practice, embodiments will now be described, by way ofnon-limiting example only, with reference to the accompanying drawings,in which:

FIGS. 1A and 1B show a side view and perspective view, respectively, ofa support element constructed and operable in accordance with anembodiment of the invention.

FIG. 2 shows a perspective view of a system constructed and operable inaccordance with an embodiment of the invention.

FIG. 3 shows a perspective view of a deployment device constructed andoperable in accordance with an embodiment of the invention.

FIG. 4 shows a top view of a measuring device for measuring the diameterof a penis sulcus constructed and operable in accordance with anembodiment of the invention.

FIGS. 5A-5J show successive steps in a procedure for deploying anelastic ring over a foreskin for effecting ischemic foreskin, accordingto an embodiment of the invention.

FIGS. 6A-6G show successive steps in a procedure for releasing anelastic ring from a necrotic foreskin, according to an embodiment of theinvention.

DETAILED DESCRIPTION OF SOME NON-LIMITING EMBODIMENTS

The present invention provides a support element and a system fornon-surgical circumcision and in particular for use in effectingischemic necrosis in a foreskin of a penis and removal of the necroticforeskin thereafter. As will be appreciated from the description below,the support element, the system and the method of using the same may beapplicable for any male subject, including infants, children,adolescents and adults.

The support element according to the invention is a closed-loop memberwith an opening dimensioned to permit a penis glans to pass therethroughand having an inner surface and an outer surface; the outer surfacecomprising a circumferential support for an elastic ring to be mountedthereon, said circumferential support being formed within a groove in atleast part of the outer surface; at least one first segment of the outersurface having an outer curvature of a radius larger than that of itsflanking second segments.

Referring first to FIGS. 1A and 1B, there is provided a support element10, being a closed loop member and having an opening 12, which isdimensioned such, as is also illustrated below, for the penis glans topass therethrough. Element 10 has an inner surface 14 which, in thisspecific embodiment, has a generally circular contour; and an outersurface 16 comprising a circumferential support 18, configured toreceive and hold an elastic ring (not illustrated). Further,circumferential support 18 is formed within a groove 20, defined byflanking side walls 22, 24, the top of the side walls defining an outercurvature.

According to this particular and preferred embodiment support element 10is formed with two opposite first segments 26 and 28 where the outercurvature has a radius larger than that of the two flanking oppositelyarranged second segments 30, 32. In this particular embodiment, theouter curvature of the two opposite first segments 26 and 28 is zero(are flat). However, it is to be appreciated that the outer curvature ofsuch first segment may be greater than zero, as long as it is largerthan the outer curvature of its flanking segments.

While FIGS. 1A and 1B illustrate a support element with one such firstsegment, it is to be appreciated that the support element according tothe invention may comprise a single such first segment as well as two ormore such first segments. Nonetheless, it is noted that a preferredembodiment of the invention comprise two opposite (parallel) firstsegments, having zero curvature at their outer surface (i.e. essentiallyflat outer surfaces).

The support element according to the invention and as exemplified inFIGS. 1A and 1B is typically made of a rigid material. When referring torigid material it is to be understood as any material that substantiallyretains is shape once an elastic ring is mounted thereon. The rigidmaterial may be of any non-resilient (non-elastic) material, such as,without being limited thereto, plastic such as polycarbonate,polyoxymethylene such as Delrin® (DuPont) acetal resin,polyether etherketone (PEEK), but also, of a resilient material, having, however, lowerelasticity than that of the elastic ring to be mounted thereon. In thiscontext, a resilient material, or elastic material, are to be understoodas meaning a material that is capable of regaining its original shape orposition after bending, stretching, compression, or other deformation.The resilient material is also one that would conform to the counter ofthe circumferential support which it overlays but will exert apronounced pressure on the support because of its tendency to return toits original shape.

The invention also provides a system for effecting ischemic necrosis ina foreskin of a penis. Reference is now made to FIG. 2 showing a systemaccording an embodiment of the invention. For simplicity, like referencenumerals to those used in FIG. 1A or 1B, shifted by 100, are used inFIG. 2 to identify components having a same or similar function. Forexample, support element 10 in FIG. 1A is has the same function assupport element 110 in FIG. 2

A system 100, as shown in FIG. 2, comprises a support element 110, anelastic ring 150 to be stretched over circumferential support 118 andplaced in its groove 120. According to the embodiment of FIG. 2, thesystem may also comprise a deployment element 160.

Elastic ring is made of an elastic material, and is shown in thisembodiment to be made of rubber, such as ethylene propylene dienemonomer (EPDM) rubber, polyurethane rubber or silicone rubber. However,it is to be appreciated that the elastic ring may be of any elastic orelastomeric material, other than rubber, such as a spring or spring-likematerial such as nitinol, steel springs.

Elastic ring may be secured with a safety thread. The safety thread maybe a loop closed onto the elastic ring and may be used to lift theelastic ring, e.g. in case the elastic ring is misplaced and needs to becorrected.

As should be appreciated, support element 110 and elastic ring 150 haveto be made of physiologically and biologically compatible materials thatdo not cause irritation or allergic reaction when in contact with theskin. At times, these may be coated with such biocompatible material.For example, the support element, while being generally rigid, may becoated with a relatively soft layer, such as polyurethane latex, softsilicone or even fleece, to reduce friction between the foreskin and thesupport element.

In some embodiments, the elastic ring and/or the support element arecoated or impregnated with substances having a benefit in thecircumcision procedure, such as lubricants, antiseptic agents (e.g.copper based antimicrobial fibers such as those sold by Cupron, silverbased products made by AcryMed), anesthetic agents, etc.

The dimensions of support element, such as support element 110 andelastic ring, such as ring 150 are selected such that once the elasticring is mounted on the foreskin and in turn on the circumferentialsupport 118, radial pressure is applied onto the portions of theforeskin that is held between the elastic ring and circumferentialsupport. The pressure should be such that, on the one hand, blood flowand oxygen supply into the foreskin is obstructed thereby graduallyleading to the formation of ischemic tissue, and on the other hand, thepressure does not cause significant inconvenience or pain to thesubject. In some embodiments, the desired pressure is obtained byconstructing an elastic ring which when in a relaxed, non-stretchedstate, has an inner diameter that is either equal or up to 10% lowerthan the outer diameter of the support element, when measured from theouter surface thereof. For example, the difference in diameters may bein the range from 1 to 10 mm, preferably from 3 to 7 mm. Such differencemay cause a radial pressure of about 0.4 to 0.8 atmospheres.

The deployment element, when used, constitutes an arrangement of holdersfor holding the elastic ring in a stretched state thereof and formounting the elastic ring within the circumferential support of thesupport element.

An exemplary structure of deployment element can be best seen in FIG. 3.According to this embodiment, deployment element 160 includes a frame162 and an array of holders 164 (four in this specific embodiment)carried by frame 162 and projecting in a generally normal direction fromthe plane, defined by frame 162 dimensioned to enclose at least a partof a penis shaft. While in the exemplary embodiment illustrated in FIG.3 the frame has a generally circular (closed ring) shape, it is to beappreciated that the frame may have an oval shape or even a polygonalshape, such as an opened square, pentagonal etc. Equally, while theframe is illustrated as a closed shape, the frame may also comprise anopen segment, e.g. having a generally U shape.

Further as illustrated in FIG. 3, the arrangement is a circular array ofspaced-apart holders 164. While illustrated as four substantiallyequally spaced apart holders (equally, at least as it is viewed by theeye), the deployment element may comprise less, e.g. three, or more thanfour holders.

Each holder 164 has, at its apex 166, a recess 168 for holding theelastic ring in a stretched state. Recess 168 is defined at its distalend by a low ridge 170. When referring to low, it is to be understoodthat the height of the ridge from a base 172 of recess 168 is at leastshorter than a proximal wall 174 of the recess 168. This low ridge 170allows securing the elastic ring in position within recess 168, on theone hand, and easy release for deployment, as will be seen below, on theother hand.

The system of the invention may also includes, by some embodiments, apenis measuring device comprising a plate with a plurality of circularopenings of different diameter, each defining a penis sulcus size. Inthis connection, reference is made to FIG. 4 showing a penis measuringdevice 180 according to an embodiment of the invention.

Measuring device 180, in this specific embodiment, is in the form of adisc having five openings 182, all of a different diameter. Bydetermining the opening that fits the penis sulcus, the diameter of thepenis can be gauged and a properly dimensioned system can be selectedfor use in effecting necrosis of the foreskin. It is noted that the sizeof the support element should be such that when fitted over the sulcusit is sufficiently large to allow erection.

Reference is now made to FIGS. 5A to 5G showing steps in a deploymentprocedure for deploying element and elastic ring in a manner that willeventually lead to ischemic necrosis of a subject's foreskin, accordingto an embodiment of the invention.

In a first step, shown in FIG. 5A, the diameter of a subject's penis, inparticular, the sulcus, is gauged, using measuring device 180. In thisspecific case the foreskin is manually stretched backward (towards theshaft), by the practitioner or physician, to permit measurement of thepenis sulcus 184 by fitting the penis in appropriate opening 182. Then,as shown in FIG. 5B, the foreskin 186 is stretched forward and acircumcision line, such as the dotted line 188 is marked over foreskin186 according to medically acceptable standards for circumcisionprocedures. The circumcision line is marked with a medically acceptablemarker, e.g. a non-toxic, and non-allergenic marker.

In a third step, illustrated in FIG. 5C, the elastic ring 150 isstretched over deployment element 160 and into recesses of holders 164(in this particular example, four holders) of deployment element 160 toessentially acquire an essentially square shape. The deployment element160 carrying the stretched elastic ring on the four holders is thenpassed over the penis shaft with the frame 162 of the deployment element160 far enough along the penis shaft 190 so that foreskin 186 can befully folded back onto the shaft 190 without touching the deploymentelement 160. In the particular embodiment shown in FIG. 5D, thedeployment element 160 is pushed proximal to the subject's body (and theholders apex facing the glans).

In a forth step, the foreskin is stretched forward to fully open theforeskin, as illustrated in FIG. 5E, and support element 110 is insertedvia foreskin opening 192, while held stretch opened, over the penisglans (not shown), below the foreskin as sequentially shown in FIGS. 5Fand 5G. The support element 110 is placed over the sulcus, such that itsgroove 120 is fitted below the circumcision line 188 and the two firstsegments are positioned at lateral sides of the penis [. The existenceof the two first segments 126 and 128, where their outer surface 116essentially tangential to the support element's inner surface 114,provides easy insertion of the support element 110 through the foreskinopening 192. Foreskin 186 may be stretched open using the hands of thephysician or using various instruments such as clamps, clasps, tongs orknown surgical tools (not shown).

In an alternative embodiment, the foreskin 186 may be stretched backover the shaft 190 and then support element 110 is directly placed overthe glans of the penis.

In the next step, support element 110 is maneuvered around the glans ofthe penis until the circumferential centerline of the recess 168, (notshown) and is substantially lined up with dotted line (circumcisionline) 188.

In FIGS. 5G and 5I, while holding the support element 110 in place,deployment element 160 is advanced along shaft 190 towards the glans(FIG. 5H) until elastic ring 150 lies circumferentially overcircumcision line 188 and firmly grasps at least portions ofcircumferential recess 168 through foreskin 186 (FIG. 5I). The elasticring 150, deployment element 160 and support element 110 are now allcoupled as a fixed arrangement via inward radial compression forcesapplied by the elastic ring (not shown).

As shown in FIG. 5I, foreskin opening 192 no longer needs to be heldstretched open. Also, it is noted that a circumferential centerline ofthe recess 168, does not need to necessarily line up exactly withcircumcision line 188, in this step. In an alternative to this step, ifforeskin 186 was pulled back along shaft 190, in this step, foreskin 186is pulled over support element 110, either using the hands or aninstrument. Support element 110 would then be maneuvered to its desiredposition as described above.

As illustrated, the diameter of deployment element 160 and the stretcheddiameter of elastic ring 150 are larger than the diameters of shaft 190and the area of the penis around foreskin 186. In addition, at thisstage, circumcision line 188 may still not lined up exactly with thecircumferential centerline of the recess 168 (not shown). Thus, thefixed arrangement comprising support element 110, deployment element 160and elastic ring 150 may be moved as a single unit distally orproximally along shaft 190 to align the centerline of recess 168 withcircumcision line 188. Alternatively, foreskin 186 may be pulled in thedesired direction to align the centerline of recess 186 circumcisionline 188. It is noted that while the fixed arrangement of supportelement 110, deployment element 160 and elastic ring 150 are tightlyheld together, it is still possible to move the arrangement along thepenis or pull the foreskin without dislodging elastic ring 150 from thedeployment element 160.

The last step of elastic ring deployment shown in FIG. 5J, where theelastic ring 150 is dislodged from each holder's ridge 170 while thesupport element 110 and deployment element 160 are held together inplace. The stretched elastic ring is fitted over support element 110 andapplies pressure on the foreskin and its support portion between supportalong the circumcision line 192.

Finally, once the elastic ring 150 is removed from the deploymentelement 160, the latter is removed from shaft 190.

At times, elastic ring may be misplaced or incorrectly placed.Therefore, to ensure that the elastic ring is correctly andcircumferentially mounted over the circumcision line, the elastic ringis equipped with a safety thread (not illustrated) that allows thelifting of the elastic ring back into the deployment element recesses oradjusting the location of the ring to correctly place it over thecircumcision line. Once the elastic ring is safely in place, thedeployment element is removed and optionally, the safety thread is cut.

Within a period of time, typically from 72 hours to about 14 days, attimes, from 5 to 10 days or from 6 to 9 days and preferably between 5 to7 days after deployment of the elastic ring, the foreskin is necroticand dry and this necrotic skin is (excised) removed from the penis.

Steps for the removal of necrotic foreskin and the system according tothe invention from the penis is illustrated in FIGS. 6A to 6G. Firstly,as shown in FIG. 6A, necrotic foreskin is removed by any conventionalcutting tool such as scissors 194, including, without being limitedthereto, scissors, razor blade, scalpel. At times, forceps 196 may beused, as illustrated in FIG. 6B. Needless to note that cutting of thenecrotic foreskin is to be made as close as possible to the elasticring. At times, dead foreskin naturally falls.

For releasing elastic ring 160 and support element 110, location of thefirst segments of support element (the ‘flat’, zero curvature segment)is verified (these first segments are to be on the lateral sides of thepenis) and a cutting element is inserted between circumferential recess168 and elastic ring 150 at one of the first segments, thereby cuttingelastic ring 150, as shown in FIG. 6C.

As a last stage, the support element is released, either with aphysician's fingers or using forceps 196, as clearly illustrated inFIGS. 6D to 6G.

It should be noted that by virtue of the existence of the firstsegments, the ring is accessible for cutting at the first segments (withflat outer surfaces), as can be seen in FIG. 6C, and is less accessiblein flanking segments where it is tightly received within the deep grooveof the support element. This configuration also allows cutting of thenecrotic foreskin substantially adjacent to the circumferential recess168 and the elastic ring 150 and thus eases removal of the supportelement 110 from the penis and reduces any pain that the subject mayfeel when the support element 110 is removed. In this connection, it isnoted that dead skin tissue is hard and not stretchable like live skintissue, therefore when the support element is removed from the penis(after the foreskin is removed), any dead skin tissue still coupled tothe penis may cause sensations of pain as the support element isremoved, since the live skin tissue adjacent to the dead skin tissue mayhave to stretch beyond its normal amount as the support element isremoved. The existence of the two first segments substantially enables acutting instrument to cut the foreskin substantially close to thecapturing ring, thereby minimizing the amount of dead foreskin left onthe penis and easing the removal of the support element. In addition,the configuration of the two parallel first segments also reduces thelikelihood of the foreskin adhering to the surface of the supportelement as it dries, thereby also easing the removal of the supportelement.

1. A support element for use in effecting ischemic necrosis in aforeskin of a penis, being a closed-loop member defining an openingdimensioned to permit a penis glans to pass therethrough and having aninner surface and an outer surface; the outer surface comprising acircumferential support for an elastic ring to be mounted thereon, saidcircumferential support being formed within a groove in at least part ofthe outer surface; at least one first segment of the outer surfacehaving an outer curvature of a radius larger than that of its flankingsecond segments.
 2. The support element of claim 1, wherein the outercurvature is defined by a top of side walls along the groove.
 3. Thesupport element of claim 1, wherein the outer curvature of the firstsegment is substantially zero.
 4. The support element of claim 1,wherein said groove extends along said first segment.
 5. The supportelement of claim 1, comprising at least two of the first segments. 6.The support element of claim 5, comprising two of said first segments atopposite sides of the closed loop member.
 7. System for effectingischemic necrosis in a foreskin of a penis, comprising: an elastic ring;and a support element defining a closed loop defining an openingdimensioned to permit a penis to pass therethrough and having an innersurface and an outer surface; the outer surface comprising acircumferential support for the elastic ring to be mounted thereon, saidsupport being formed within a groove in at least part of the outersurface; at least one segment of the outer surface having a curvature ofa radius larger than that of its flanking segments.
 8. The system ofclaim 7, wherein the outer curvature is defined by a top of side wallsalong the groove.
 9. The system of claim 7, wherein the outer curvatureof the first segment is substantially zero.
 10. The system of claim 7,wherein said groove extends along said first segment.
 11. The system ofclaim 7, comprising at least two of the first segments.
 12. The systemof claim 11, comprising two of said first segments at opposite sides ofthe closed loop member.
 13. The system of claim 7, comprising, adeployment element having an arrangement of holders for holding theelastic ring in a stretched state thereof and for mounting the elasticring within the circumferential support of said support element.
 14. Thesystem of claim 13, wherein said arrangement comprises a circular arrayof spaced-apart holders.
 15. The system of claim 13, wherein saidarrangement comprises four holders substantially equally spaced apart.16. (canceled)
 17. The system of claim 13, comprising a frame membercarrying said arrangement of holders, the frame being dimensioned toenclose at least a part of the penis shaft.
 18. (canceled)
 19. Thesystem of claim 16, wherein said frame is selected from the groupconsisting of a closed loop member and a ring like element. 20.(canceled)
 21. The system of claim 17, wherein said holders project fromthe frame in a direction generally normal to a plane defined by theframe.
 22. The system of claim 21, wherein a distal end of each of theholders has a recess for holding the elastic ring.
 23. (canceled) 24.The system of claim 13, further comprising at least one of (i) a safetythread secured to said elastic ring and (ii) a penis measuring devicecomprising a plate with a plurality of circular openings of differentdiameter, each diameter defining a penis sulcus size.
 25. (canceled)